Vehicle Seat Having An Anti-submarining Device And Method

ABSTRACT

The invention relates to vehicle seat comprising a seat part and to a restraint device and a corresponding method of manufacture. The vehicle seat comprises an anti-submarining restraint device for preventing an occupant from slipping through on the vehicle seat when decelerated due to a crash, said restraint device being sellable to an extended inactive position and said restraint device being settable to an extended active position. The seat part, in the longitudinal direction of the vehicle, has a padding defining a seat area, and a padding support below said padding. The restraint device is arranged between the padding support and the padding and spaced apart from the lateral parts by means of a locking element (e.g. detent recesses ( 28 ) or the like) provided for locking the restraint device in the active position.

The present invention relates to a vehicle seat with a seat section and with a restraint device for preventing submarining of a passenger on the vehicle seat during an accident-induced deceleration, wherein the restraint device can be set in a retracted inactive position, and wherein the restraint device can be set in an extended active position, wherein the seat section has a padding, which defines a seat surface, and a padding support which is provided beneath the padding.

Such vehicle seats are generally known. For example, a motor vehicle seat with a seat surface on the surface of a padding is known from German laid-open specification DE 102 31 794 A1, wherein a seat pan is provided beneath the seat surface, and wherein between the seat pan and the seat surface of the seat section a U-shaped adjusting element is arranged, which in the case of a crash can be moved out from an initial position in such a way that the seat surface and the adjusting element counteract a forward displacement in the longitudinal direction of the vehicle of the pelvis of a person sitting on the seat surface. With this vehicle seat, the actuating unit has means for returning the adjusting element to the initial position, wherein the actuating unit, after the return of the adjusting element to the initial position, ensures a renewed movement of the adjusting element in a new crash case. This has the disadvantage that the restraint device cannot be blocked in its active position. Furthermore, the known vehicle seat has the disadvantage that for realizing an active restraint device for preventing submarining of a person sitting on the vehicle seat (a so-called anti-submarining restraint device), i.e. a restraint device which can be transferred from an inactive to an active extended position, it is provided as a rule that the restraint device, during assembly of the vehicle seat, must be connected to structural elements of the vehicle seat, such as seat side sections or a seat section frame or the like, as a result of which there is no modularity in the sense of the possibility of deciding only at a late stage of the seat production or of the seat completion whether the vehicle seat is to be equipped with a restraint device or not. In the case of known vehicle seats, therefore, a larger number of variants of the vehicle seat have to be taken into consideration over a larger part of the production chain of the vehicle seat, which altogether leads to higher cost in the case of logistics and production. A vehicle seat with a seat frame, a seat cushion and a seat cushion support is known from German laid-open specification DE 199 43 595 A1, wherein in the longitudinal direction an anti-submarining ramp is attached approximately in the middle of the seat padding support, extends to the front edge of the seat padding support and covers approximately the front half of the seat padding support. A normally folded-up airbag, which is inflated in the event of a crash, is provided between the ramp and the seat padding support, or is embedded in the ramp. The airbag is provided in such a way that the gas which inflates the airbag can then escape again, for example by the bag fabric being permeable to air. Also in this case, the restraint device cannot be blocked in its activated position.

The present invention is therefore based on the object of providing a vehicle seat with a restraint device for preventing submarining of a passenger on the vehicle seat in the case of an accident-induced deceleration, wherein the vehicle seat for one thing can be equipped with such a restraint device easily and simply with the least possible cost and as late as possible in the production chain of the vehicle seat, and wherein for another thing the restraint device is equipped in such a way that a locking of the restraint device or a blocking of the restraint device in its active position is provided.

The object is achieved by means of a vehicle seat with a seat section and with a restraint device for preventing submarining of a passenger on the vehicle seat, wherein the restraint device can be set in a retracted inactive position, and wherein the restraint device can be set in an extended active position, wherein the seat section, in the longitudinal direction of the vehicle, has side sections on both sides, wherein the seat section has a padding which defines a seat surface, and a padding support which is provided beneath the padding, and wherein in addition the restraint device, with a locking means which is provided for locking the restraint device in the active position, is arranged between the padding support and the padding and also at a distance from the side sections. As a result of this, it is advantageously possible that for one thing the modularity of the restraint device is ensured, i.e. the possibility of deciding only at a late point in time in the production chain of the vehicle seat whether a specific vehicle seat is to be equipped with a restraint device according to the invention or not. For another thing, this is possible by the correct functionality of the restraint device being able to be ensured in an especially easy and safe manner since after a single extension of the restraint device into its active or extended position a blocking takes place in such a way that the restraint device can no longer be moved, or at least no longer completely moved, into its inactive or retracted position (or this being possible only with disproportionately large forces). According to the invention, it is especially preferred if the restraint device has an actuating means, especially a pyrotechnic linear actuator and/or a reversibly operating actuator, wherein the actuating means is arranged between the padding support and the padding, or is supported between the padding support and the padding, wherein in particular an operation of the actuating means is already provided in terms of time before the existence of an accident-induced deceleration. In the case of supporting the actuating means between, the padding support and the padding, the actuating means can partially also extend or be arranged beneath the padding support. Linear actuators are comparatively small and can be realized in a compact manner in terms of installation space, so that as a result of this the restraint device can be configured in an especially compact manner in terms of installation space and according to the invention the modularized installation method of the restraint device in the vehicle seat can be especially easily realized. In the sense of the present invention, a padding support is understood to be a single structural component or a multiplicity of structural components of the seat section, which are provided at least in the proximity of the padding which is possibly to be fastened later on the seat, and which retain or support the padding. For example a padding support which continues essentially over the entire seat surface, as an essentially universal cushion pan or seat pan is a possibility as a padding support in this case. Furthermore, according to the invention, for example a so-called split seat pan or divided seat pan is a possibility, in which such a split seat pan supports approximately the front half or only the front or rear approximately 20% or just 10% of the padding. Furthermore, structural elements such as tubular or open stiffening elements are also a possibility as part of the padding support. In the case of a padding support in the sense of the present invention this can also partially have an underspringing. According to the invention, for example a pyrotechnic linear actuator, also a reversibly operating actuating means, for example an electric motor-powered linear actuator, can be provided alternatively or cumulatively to an irreversibly operating actuating means and together with corresponding sensors (pre-crash sensors) which anticipate an accident, leads to a setting of the extended active position of the restraint device or to a setting of an intermediate position of the restraint device (between the inactive position and the active extended position) already before an accident occurrence in terms of time and therefore before the existence in terms of time of an accident-induced deceleration (i.e. a deceleration which is typical for an accident occurrence).

Furthermore, it is preferred if the restraint device has a positioning element which is movable by the actuating means, wherein the positioning element is adjustable by means of the actuating means from a retracted position which corresponds to the inactive position of the restraint device into an extended position which corresponds to the active position of the restraint device. As a result of this, it is possible that the positioning element can be optimized to the respective application case independently of the actuating means, for example with regard its compressibility (for example for energy dissipation during an accident situation), or also with regard to its dimensions which in their turn for example have an influence on the extension degree of the restraint device.

Furthermore, it is preferred that a rotation around an axis which extends essentially horizontally and especially transversely to the direction of the vehicle is provided between the retracted position and the extended position of the positioning element, wherein the positioning element is preferably provided as a plate-form positioning element, and wherein the rotation around the essentially horizontally extending axis is preferably provided as a rotation in the direction of travel. As a result of this, a plate can be used as the positioning element which extends essentially over the entire width of the restraint device which can preferably be installed in a modular manner, wherein the plate in the retracted position of the positioning element is arranged essentially parallel to the seat surface or parallel to the padding support, and in the extended position of the positioning element is arranged essentially perpendicularly to the seat surface or perpendicularly to the padding support. Between the positioning element and the padding of the seat section, according to the invention there is preferably a cover of the restraint device in the sense of an anti-submarining ramp. As a result of this, it is advantageously ensured that the body of the seat's occupant in the case of an accident situation (i.e. a negative acceleration or a deceleration, which exceeds a prespecified limiting value) exerts a force action upon the restraint device over the largest possible area so that the risk of injury of the seat's occupant is lessened. A particular advantage of a movement of the positioning element in the direction of the vehicle is that the force action of the actuating means, especially a pyrotechnic linear actuator, can be selected in such a way that the force action of the actuating means or its extension in any case is not directed in the direction of main body parts (especially in the direction of the pelvis or in the direction of the trunk) of the seat's occupant. As a result of this, the risk of injury is likewise reduced.

According to the invention, it is additionally preferred that a rotation at least of a part of the positioning element around an axis, which extends essentially vertically, is provided between the retracted position and the extended position of the positioning element, wherein the positioning element is preferably provided as a telescopically extendable positioning element with one or more extendable elements. As a result of this, it is advantageously possible that the positioning element can be realized in a compact type of construction, for example by means of cup-like components which telescopically inter-engage, and for realizing the extended position from the retracted position a rotational movement of at least one of the cup-like components around its center is carried out. In this case, a spirally designed pin-and-slot guide of the at least two cup-like components is preferably provided according to the invention for converting the rotational movement into an extending movement. For realizing a locking of such a positioning means, the pin-and-slot guide can be configured by means of for example an asymmetrical toothing in such a way that only a movement in the direction of the extending movement is possible. Alternatively to an exemplary pin-and-slot guide, in the case of the telescopically extendable variant of the positioning element it can also be provided according to the invention that for example two cup-like components inter-engage like a thread and by means of a rotation of one of these components relative to the other a positioning is brought about.

Furthermore, it is preferred if the restraint device has a lower section and an upper section, wherein the lower section has fastening elements for connecting the restraint device to the padding support, or if the padding support has fastening elements for connecting the restraint device to the padding support. As a result of this, it is possible in a simple manner to create the connection between the restraint device and the padding support without expensive tools being required for it or without the task making high qualification demands. In this case, according to the invention a fastening by pushing on, or sliding on, or clipping, or adhesive fastening have proved to be especially preferable. Combinations of two or more such fastening possibilities can also be used, for example for securing a push-on connection or a slide-on connection. Alternatively to the embodiment variant of the restraint device with a lower section and an upper section, it can also be provided according to the invention that the functionality of the lower section (for example the provision of connecting points of levers or the like) is undertaken by the padding support (full integration of the lower section into the padding support) and that consequently the lower section can be saved so that the weight can be reduced and costs can be saved. For example, it is provided in this case that the restraint device, that is to say for example lever connections or the like of the restraint device, are screwed and/or riveted and/or pinned to the lower section.

Furthermore, it is preferred if the locking means has a drag lever or a telescopic lever, wherein the drag lever or telescopic lever is provided in a movable manner by means of the movement of the positioning element, or if the drag lever can be latched by means of latching bolts and/or by means of latching recesses, wherein by means of at least one spring element a blocking action of a displacement of the drag lever in the direction of the position which corresponds to the extended position of the positioning element to the position which corresponds to the retracted position of the positioning element is preferably provided. As a result of this, it is advantageously possible according to the invention that a modular type of construction of the locking means can be provided in such a way that the blocking force of the locking means can be set largely independently of the other characteristics of the restraint device. For example, it is possible according to the invention that the drag lever on its end opposite the positioning element is guided in a housing which accommodates a multiplicity of spring-loaded latching bolts which in the retracted position of the positioning element press upon the drag lever. As soon as the drag lever has extended far enough in the direction of the extended position of the positioning element, one of the latching bolts locks the return movement of the drag lever. By a multiplicity of such latching bolts a multiplicity of engaged positions can be defined. This is especially advantageous in case (on account of malfunction of the actuating means or on account of the particular situation of a seat occupancy for example by an abnormally large or an abnormally small person as the seat occupant) a movement of the positioning element into its furthermost extended position is not carried out.

Furthermore, it is preferred if the locking means has a slot and a bolt, wherein the bolt has an axial first section with reduced diameter, and an axial second section with enlarged diameter, and wherein an axial movement of the bolt is provided for bringing about the locking. A further embodiment variant of the restraint device for alternative realization of a locking means, according to the invention can provide a slot with a starting section and with an end section, wherein a bolt, which is moved together with the positioning element, engages in the slot, wherein the bolt in the inactive position of the restraint device is located in the starting section of the slot, and in the active position of the restraint device is located in the end section of the slot, and wherein the shape of the slot is configured in such a way that at least in the (fully) activated position, or active position, of the restraint device a reverse movement of the positioning element or of the bolt is prevented. In this case, the slot, according to a further variant of the locking means, can have for example a curvature or a bend point in such a way that the bolt which is moved with the positioning element can no longer be moved back into the starting section, or such a reverse movement is highly improbable, on account of the force ratios which exist in an accident situation. Furthermore, in a further variant an operating cam, also with a starting section and an end section for a bolt, can be provided instead of the slot, wherein the operating cam has a recess in the end section in such a way that the bolt which is moved with the positioning element likewise can no longer be moved back into the starting section, or such a reverse movement is highly improbable, on account of the force ratios which exist in an accident situation. In this case, it can preferably be provided that the element or component which features the operating cam is spring-preloaded in the direction of the inactive position. In the case of the embodiment variants with a slot, it can be advantageously provided in the same way that the element or component which features the slot is spring-preloaded in the direction of the inactive position. Furthermore, in a further variant, a slot, in a way in which it is configured in the style of a keyhole, can be formed with a starting section which has a reduced clear opening, and an end section which has an enlarged clear opening, in such a way, and interacting with a bolt, that the bolt has a smaller diameter in a first axial section and interacts with the starting section, and that the bolt, upon reaching the end section of the slot (which is to be carried out during a movement of the positioning element in the direction of the active position), with a second axial section of the bolt, which has a larger diameter, is pressed into the end section on account of a spring-pretensioning of the bolt. In a further embodiment variant of the restraint device, for alternative realization of a locking means, according to the invention the positioning element can interact with the upper section, especially with holes or recesses, in such a way that upon reaching the active position a reverse movement of the positioning element is prevented. According to the invention, it is furthermore provided that partial aspects of the different variants of the restraint device with a locking means can be combined with each other. In this way, for example the last-mentioned variant (holes or recesses in the positioning element) can be combined with the other variants.

It is especially preferred if a latching of the rotational setting of the positioning element between the extended position and the retracted position is provided by means of an asymmetrical toothing or by means of a wedge element. As a result of this, according to the invention it is possible with comparatively simple means to ensure a latching or locking of the restraint device in its active or activated position, or in one of its active positions. For example, it is possible that during a rotation of the positioning element around an essentially horizontal axis a ratchet-like locking of the positioning element is carried out in such a way that a reverse movement (into the retracted position of the positioning element) is no longer possible. Alternatively to this, it is also possible that a (for example spring-loaded) wedge element blocks a reverse rotation of the positioning element if there is a sufficiently large extending movement of the positioning element.

Furthermore, according to the invention it is preferred that a latching of the rotational setting of the positioning element between the extended position and the retracted position is provided by means of a bell-crank lever and a spindle. As a result of this, an especially secure and reliable locking of the positioning element in its extended position, or in one of its extended positions can be carried out, wherein it is especially advantageous in this case that a locking is virtually continuously possible, i.e. with virtually continuous blocking positions, so that an extended position which is once occupied by the positioning element is essentially fully maintained. As a result of this, the safety level of the restraint device according to the invention and the safety level of the seat according to the invention are advantageously increased.

Further subjects of the present invention relate to a restraint device according to the invention for a vehicle seat, and also to a method for producing a vehicle seat according to the invention, wherein in a first step the supporting structure of the vehicle seat is produced, and wherein in a second step the restraint device is connected to the padding support. As a result of this, it is especially possible that the complete production steps for producing the structural elements of the vehicle seat, for example the frame of the seat, the frame of a back section, the sub-construction of the seat section and the like, are carried out in the first production step and for example are undertaken in the factory of the seat section manufacturer. The integration of the restraint device into the vehicle seat, or with the seat section of those vehicle seats which are to be equipped with the restraint device, can then be undertaken in a production plant in the proximity of the final production of the vehicle seat or of the vehicle in which the vehicle seat is to be installed, wherein for this installation of the restraint device in the vehicle seat according to the invention there are significantly lower equipping requirements and furthermore significantly less qualification requirements of the employees who carry out the installation than for the production of the structural elements of the vehicle seat for which for example the production of welded joints is necessary.

Exemplary embodiments of the invention are shown in the drawing and explained in more detail in the following description.

FIG. 1 schematically shows a side view of a vehicle seat according to the invention, and also shows a perspective view of a seat pan or of a padding support of a seat section of a vehicle seat according to the invention with a partially sectioned view of a restraint device according to the invention.

FIGS. 1 a and 1 b schematically show perspective views of different embodiments of a padding support of a seat section together with the seat side sections of the seat section and the restraint device.

FIG. 2 schematically shows a perspective view of a seat pan or of a padding support of a seat section together with the seat side sections of the seat section of the vehicle seat according to the invention with a view of the restraint device according to the invention.

FIGS. 3 and 4 schematically show in perspective view a seat pan or a padding support of a vehicle seat according to the invention with an embodiment of the restraint device in its inactive position (FIG. 3) or in its active position (FIG. 4).

FIGS. 4 a, 4 b and 4 c shows embodiment variants of the restraint device in side view or in perspective view.

FIGS. 5, 6 and 7 schematically show in perspective view in each case a detail of the restraint device according to the invention with a first embodiment of a locking means.

FIGS. 8 to 17 schematically show in perspective view, or in side view, or in exploded view in each case a detail of the restraint device according to the invention with variants of the first embodiment of a locking means.

FIGS. 18 to 22 schematically show in side view, or in perspective view a second, third, fourth, fifth or sixth embodiment of the locking means.

FIGS. 23 a, 23 b, 23 c, 23 d, 23 e, 23 f, 23 g, 23 h, 23 i, 23 j, 23 k and 23 l show embodiment variants of the restraint device in perspective view.

In FIG. 1 (in the left-hand part of the figure), a side view of a vehicle seat 10 according to the invention is schematically shown. The vehicle seat 10 comprises a seat section 30 and also as a rule a back section which is not provided with a designation. According to the invention, the seat section 30 especially has a frame-like structure with at least two seat side sections 31 on the sides. Inside this frame-like structure the seat section 30 has a seat pan 34 or a padding support 34. A padding 33 or a seat cushion 33 is connected to the seat pan 34 or to the padding support 34. The seat section 30 is connected to the floor sub-assembly 16 of the vehicle interior or to the body structure 16 of the vehicle by means of a seat substructure 15. By means of the seat substructure 15 it can be provided according to the invention that the complete vehicle seat 10 is connected in a longitudinally adjustable and/or vertically adjustable and/or inclinably adjustable manner. For this purpose, in the left-hand part of FIG. 1 the seat substructure 15 is shown as outlined links which by rotating or pivoting can bring about a corresponding seat setting. The padding 33 has a seat surface 32 upon which a user of the vehicle seat 10, or an occupant of the vehicle, or a passenger can be seated. According to the invention, it is provided in an especially preferred manner that the seat pan 34 or the padding support 34 together with the padding 33 and the seat surface 32 is provided in a vertically and/or inclinably adjustable manner in relation to the rest of the seat section 30.

The seat section 30 of the vehicle seat 10 according to the invention for example can be provided as a two-times, or four-times, or six-times, or eight-times, or multiply adjustable substructure, as a result of which for example the seat height and/or the seat inclination and/or the seat longitudinal adjustment and/or the seat length setting (thigh support length) can be set. The padding support is shown in the figures largely as a separate and one-piece seat pan 34 or as a corresponding padding support 34, but can also be provided as a split padding support 34 or a corresponding seat pan 34, as can be seen with reference to the examples of embodiment variants of a padding support 34 which are shown in FIGS. 1 a and 1 b. A single structural component or a multiplicity of structural components of the seat section are especially understood as a padding support, which are at least adjacent to a padding of the seat or are provided in the proximity of such a padding, for example approximately at a maximum distance of about 10 mm from such a padding, and wherein such a padding is carried, or supported or retained, by the padding support or by its components. As a padding support, in this case for example a continuous padding support (cushion pan or seat pan) (FIG. 1), or a split seat pan, or split seat bucket (FIG. 1 a), are a possibility, or even structural elements such as tubular or open stiffening elements (FIG. 1 b) as part of the padding support.

According to the invention, a restraint device 20 is arranged between the padding support 34 and the seat surface 32, by means of which a submarining of the user of the vehicle seat 10 in the case of an accident-induced deceleration can be avoided or reduced. The restraint device 20 is provided as an active anti-submarining device and according to the invention is especially preferably designed as a so-called add-on element which can be selectively integrated into the vehicle seat 10 or not (depending upon equipping wishes of the customer or the specifications of the manufacturer). Such an active anti-submarining device component can offer an essential contribution to the improvement of occupant protection in the case of a head-on crash. The unit can preferably be installed as an add-on element in almost all front seats and also rear seats. In this case, the restraint device 20 can be especially preferably integrated into the vehicle seat 10 in a so-called JIT workshop (just-in-time workshop), i.e. in comparatively close proximity to the final assembly of the vehicle or of the complete seat module, by only a fastening of the restraint device 20 on the padding support 34 being carried out, for example via a known fastening technique such as clipping, screwing, riveting, adhesive fastening or the like. In this case, it is especially advantageous that preferably no welding operations whatsoever arise and also no modifications to structural components of the seat section 30 at all are necessary. Furthermore, according to the invention it is especially advantageous that an identical seat pan 34 or an identical padding support 34 can be used both for a vehicle seat 10 with the restraint device 20 and for a vehicle seat 10 without the restraint device 20. As a result of this, the production costs for such vehicle seats 10 can be significantly reduced or the logistical additional expense for a flexible use of the restraint device 20 on any such vehicle seats is greatly reduced.

In the right-hand part of FIG. 1, a perspective view of a seat pan 34 or of a padding support 34 of a seat section 30 of a vehicle seat 10 according to the invention is schematically shown, with a partially sectioned view of a restraint device 20 according to the invention.

FIG. 2 schematically shows a perspective view of a seat pan 34 or of a padding support 34 of a seat section 30 together with the seat side sections 31 of the seat section 30 of the vehicle seat 10 according to the invention, with a view of the restraint device 20 according to the invention. Also, a part of the seat substructure 15, which in this case is designed as an adjusting linkage for height adjustment and/or inclination adjustment of the vehicle seat 10 and is connected to the seat side sections 31, is apparent from FIG. 2.

FIGS. 3 and 4 show schematically and sectioned in perspective view the seat pan 34 of the vehicle seat 10 according to the invention with an embodiment of the restraint device 20 in its inactive position 21 (FIG. 3) or in its active position 22 (FIG. 4). It is apparent that in the embodiment of the restraint device 20 which is shown this has a housing consisting of an upper shell 46 and a lower shell 45. The housing of the restraint device 20 for example can comprise a steel material, an aluminum material, a magnesium material, a plastic material, or a combination of such materials. It is also apparent that in the active position 22 (FIG. 4) the upper shell 46, by means of an actuating means 23, is extended upwards, i.e. towards the seat surface 32 (which, however, is not shown in FIG. 4). As a result of this, the pelvic bone (or the ischium hump), which is not shown, of a seat user experiences a greater resistance particularly at an earlier point in time in the case of a head-on collision so that a submarining of the pelvis or of the hips of the user (forward displacement (displacement in the X-direction) of the so-called H-point or hip-point) can be avoided or its likelihood or extent significantly reduced. As a result of this, knee airbags which are preferably arranged in the dashboard and/or measures for belt tightening can advantageously be dispensed with or reduced. According to the invention, this can be especially advantageous particularly for 3-door vehicles.

For the positioning of the upper shell 46 of the restraint device 20 this comprises a positioning element 24, which in FIGS. 3 and 4 is shown only as a lever, which is driven by the actuating means 23. In this embodiment of the restraint device 20 the positioning element 24, during the movement between the inactive position 21 of the restraint device 20 and the active position 22 of the restraint device 20, is rotated or pivoted around an essentially horizontal rotational axis (extending parallel to the seat surface 32). As a result of this, the positioning element 24 is adjusted from a retracted position 21′ which corresponds to the inactive position 21 of the restraint device 20 into an extended position 22′ which corresponds to the active position 22 of the restraint device 20 so that the upper shell 46 is extended and, as a result of this, according to the invention a relatively large impact surface for the pelvic region of a user in an accident situation is provided. An alternative embodiment of the positioning element 24 is an essentially plate-form configuration of the positioning element 24. A positioning element 24 which extends in an essentially flat manner corresponds to an essentially plate-form configuration of the positioning element 24, wherein such an element for example is at least twice as long (as a rule oriented approximately in the Y-direction) as it is wide (as a rule oriented approximately in the X-direction in its inactive position), and has a depth of at most a third of its width. Alternatively to such an essentially plate-form element as a positioning element, it can also be provided according to the invention that a tube with a plate welded on or another structural element of the restraint device 20 serves as a positioning element 24.

The positioning element 24, according to the invention in the exemplary embodiment according to FIGS. 3 and 4, is rotatably or pivotably connected to the lower shell 45 or connected directly to the padding support 34. This last-mentioned alternative connection of the positioning element 24 is especially advantageous when the lower shell 45 is not present. The connection of the positioning element 24 to the lower shell 45 and/or to the padding support 34 can especially be provided by means of one, or by means of two, or by means of three bearing points, or even by means of more than three bearing points. Two bearing points are advantageously provided on the lateral ends of the positioning element 24 (in the Y-direction).

Alternatively to a positioning element 24 which is rotatable around an essentially horizontal rotational axis, it is also possible according to the invention, and schematically shown in FIG. 19 based on a third embodiment, that the positioning element 24 is rotatable around an essentially vertical rotational axis (essentially perpendicularly vertical on the seat surface 32), or is rotatable at least in parts. In this case, the positioning element 24 for example has two reciprocating pistons which are especially cup-like in design and have a spiral pin-and-slot guide and also are rotatable relative to one another and during a rotation execute an axial extending movement along for example the common center axis. Alternatively to a rotation around a common center axis an eccentric rotation of the one reciprocating piston relative to the reciprocating piston or relative to another reciprocating piston can be also be provided. As a result of this, the installation space which is required for the restraint device 20 and also the weight can be reduced. Locking of the positioning element 24 in the extended position can be realized via a preferably asymmetrical toothing (as locking means 25) between the two parts which are rotatably arranged in relation to each other. Furthermore, alternatively or cumulatively to the locking of the positioning element in the extended position, an energy dissipation behavior of a positioning element 24 which is provided in this way can be brought about relatively simply by arranging in the central region of the reciprocating pistons which are designed like cups either a shock absorber element, or a gas-pressure damper, or a deformation material such as a metal foam, a honeycomb structure, or a similar material which dissipates energy in the case of a deformation. In the case of the third embodiment of the positioning element 24, two or more reciprocating piston units can also be provided.

Alternative embodiment variants of the restraint device 20 are shown in FIGS. 4 a, 4 b and 4 c, and also in FIGS. 23 a, 23 b, 23 c, 23 d, 23 e, 23 f, 23 g, 23 h, 23 i, 23 j, 23 k and 23 l, in side view or in perspective view as the case may be.

In FIG. 4 a, a variant of the restraint device 20 with a variable connection of the upper section 46 is shown in side view. The variable connection of the upper section 46 of the restraint device 20 is realized in the region facing away from the positioning element 24 by means of a lever 101 which in the initial position (inactive position of the restraint device 20) is adjusted or pivoted towards the positioning element 24. During an activation of the restraint device 20, both the lever 101 and the positioning element 24 are rotated in the opposite rotational direction, wherein the upper section 46 is raised or positioned both in the region of the positioning element 24 (front) and in the region of the padding support 34 which faces away from the positioning element 24, as a result of which a particularly good restraining action is achieved. When activating the restraint device 20, a pin 102 of the positioning element is also moved in the X-direction inside an elongated hole 103. Such an elongated hole 103 can be designed with latching recesses which together with the pin 102 form an example for a locking means 25. In one variant of the restraint device 20, which is not shown, the upper section 46, as in FIG. 4 a, is variably connected by means of the lever 101, but the lever in the inactive position is adjusted in a manner in which it is rotated in the direction away from the positioning element 24, and in the region of the positioning element 24 there is no elongated hole 103 but a simply pivotable bearing of the upper section 46 so that the lever 101, the upper section 46 and the positioning element 24 form a four-bar linkage. As a result of this, an optimization of the installation space can be effected. The four-bar linkage kinematics (or corresponding kinematics with variable connection of the upper section 46 corresponding to FIG. 4 a), compared with the embodiment which is shown in FIGS. 3 and 4, has the advantage that the upper shell 46 of the housing of the restraint device 20 is also raised in the rear region. This can contribute to an improved restraining functionality. Such four-bar linkage kinematics (or corresponding kinematics with variable connection of the upper section 46 corresponding to FIG. 4 a) according to the invention can be arranged both parallel to the direction of travel and transversely to it, or even diagonally to it.

In FIGS. 4 b (inactive position) and 4 c (active position), a further variant of the restraint device 20, with the upper section 46, which in the case of this variant is linearly movable essentially in only outlined linear guides and which during its linear or at least essentially linear movement positions the positioning element 24, is shown in perspective view. In this case, the upper section 46 is driven by the actuating means 23, which for example is provided as a helical spring, or another form of actuating means 23 is provided, for example a pyrotechnically operating linear actuator.

The upper shell 46 which is set in the active position 22 of the restraint device 20 (i.e. extended) can be configured in such a way that the forces on the pelvis of the occupant, which occur during the head-on crash and arise as a result of the impacting of the occupant upon the seat pan 34, or seat shell 34, or padding support 34, or as a result of the impacting of the occupant upon the upper shell 46 are noticeably reduced by directed energy absorption of for example the upper shell 46 itself. Furthermore, the positioning element 24 in its structure can also be provided in such a way (for example by plates, foams of any type, honeycomb constructions or the like) that the forces which occur, especially the pelvic forces, are reduced.

The actuating means 23 can preferably be designed according to the invention as a pyrotechnic unit, or as a pyrotechnic actuator, preferably a linear actuator. According to the invention, however, it is alternatively or cumulatively also possible that the actuating means 23 is designed as a spring-preloaded element (with mechanically stored actuating energy), or is designed as an electromagnetic unit. In this case, it is especially advantageously provided according to the invention that the effective direction of the actuating means 23, despite the relatively close arrangement of the actuating means 23 in relation to the user of the vehicle seat 10, at no time is directed towards the user, or to sensitive body parts of the user (such as the torso or the pelvic region). As a result of this, the risk of injury, for example in the case of a material defect, can be significantly reduced. The effective direction of the actuating means 23 can be provided according to the invention either essentially parallel to the direction of the vehicle or else be established transversely to it, or even be established diagonally to it.

According to the invention, it is now provided for ensuring a good protection function of the restraint device 20 that during an actuation of the actuating means 23 the system is immediately locked against a movement back into the inactive position 21. As a result of this, a maximum possible protection action in all conceivable situations is achieved even when the actual fully extended end position of the restraint device 20 is not reached. This locking of the restraint device 20 is ensured by means of a locking means 25.

FIGS. 5, 6 and 7 schematically show in perspective view in each case a detail of the restraint device according to the invention with a first embodiment of the locking means 25. The positioning element 24 (in the first embodiment of the locking means 25 as a plate-form positioning element 24) is arranged in the region of the lower shell 45 of the restraint device 20. The locking means 25 is fastened on the upper end of the positioning element 24. According to the first embodiment, this has a drag lever 26, on the side of which faces away from the positioning element 24 a plurality of latching bolts 27 or locking bolts 27, which are spring-loaded by means at least one or more spring elements 29, are provided. These latching bolts 27 prevent a reverse movement of the drag lever 26 after a movement of the drag lever 26 from the initial position of the drag lever 26 which is shown in FIG. 5 (this corresponds to the retracted position 21′ of the positioning element 24 or to the inactive position 21 of the restraint device 20) into the extended position of the drag lever 26 which is shown in FIGS. 6 and 7.

According to variants of the first embodiment of the locking means 25, which in FIGS. 8 to 17 are schematically shown in perspective view, or in side view, or in exploded view, it can be provided

-   -   that the drag lever 26 has latching recesses 28 which interact         with correspondingly formed latching bolts 27 (first variant,         FIG. 8),     -   that the drag lever 26, or the end of the drag lever 26 which         faces away from the positioning element 24, interacts with         latching recesses 28 in the region of the lower shell 45, or in         the region of the padding support 34, for realizing a locking 25         of a reverse movement of the drag lever 26 (second variant,         FIGS. 9, 10 and 11),     -   that the drag lever 26, or the end of the drag lever 26 which         faces away from the positioning element 24, is provided with         latching recesses 28 and interacts with further latching         recesses 28 in the region of the lower shell 45, or in the         region of the padding support 34 (either as an additional         element, for example a latching rail, or as a forming which is         functionally integrated in the lower shell 45 or in the padding         support 34) for realizing a locking 25 of a reverse movement of         the drag lever 26, wherein a locking of the end of the drag         lever 26 during the forward movement (in the direction of the         extended position 22′ of the positioning element 24) is         prevented by means of for example a film 28′ as a locking         protection (FIG. 12), wherein during a reverse movement of the         drag lever 26 such a film is then punctured (FIG. 13) and the         drag lever 26 locked (third variant, FIGS. 12 and 13), wherein         the person skilled in the art knows that such a drag lever 26 as         a rule has to be laterally guided (such a lateral guiding,         however, is not shown),     -   that the drag lever 26, or the end of the drag lever 26 which         faces away from the positioning element 24, is provided with         preferably asymmetrically formed latching recesses 28, and in         these latching recesses 28 a spring element 29, which for         example is arranged on a guide sleeve (engaging and therefore         latching or locking after the style of the locking of a headrest         rod), is provided (fourth variant, FIG. 14), and     -   that the drag lever 26 or the end of the drag lever 26 which         faces away from the connecting point of the drag lever 26 to the         positioning element 24 interacts with latching recesses 28 in         the region of the upper shell 46 for realizing a locking 25 of a         reverse movement of the drag lever 26 (fifth variant, FIGS. 15,         16 and 17).

FIGS. 18 to 22 schematically show in side view, or in perspective view, a second, third, fourth, fifth or sixth embodiment of the locking means 25. In the case of the second embodiment which is shown in FIG. 18, the locking means 25 has a telescopic lever 26′ alternatively or cumulatively to a drag lever 26. In this case, such a telescopic lever 26′ has a conical design of a guide cylinder 26′″ so that in the end position of the telescopic lever 26′ a locking is created as a result of the wedging of a rod 26″ with the guide cylinder 26′″.

A third embodiment of the locking means 25, which is schematically shown in FIG. 19, has an asymmetrical toothing 41 between two telescopically inter-engaging cylinder elements which together form the positioning element 24. In this case, the asymmetrical toothing 41 is designed in such a way that an extending movement of the cylinder elements is possible, but no reverse movement. According to a variant of this third embodiment of the locking means 25, which is not shown, it is provided that a pin slot guide, or pin guide track, which is spirally arranged in the region of the circumference of the cylinder elements, in its end section which corresponds to the active position (extended cylinder elements) has a reduced pitch which in the event of a release of the restraint device 20 leads to the prevention of the movement into the inactive position of the restraint device.

In FIG. 20, a fourth embodiment of the locking device 25 is schematically shown, in which an asymmetrical toothing 41 together with a ratchet-like pawl 41′ prevents a reverse movement of the positioning element 24.

In FIG. 21, a fifth embodiment of the locking means is schematically shown, in which a wedge element 42, especially a wedge element 42 which is spring-loaded by means of a spring element, is provided for blocking the positioning element in its extended position 22′.

In FIG. 22, a sixth embodiment of the locking means 25 is schematically shown, in which a bell-crank lever mechanism 43, or a bell-crank lever 43 provided with a spindle 44, which is connected to the positioning element 24, is provided. According to the invention, in the case of this embodiment it is provided that the spindle 44 allows a movement in the direction of a compression of the bell-crank lever (i.e. a movement to the position of the positioning element 24 according to the arrow 44′), while a movement in the opposite direction is blocked, or there is a self-locking.

In FIGS. 23 a, 23 b, 23 c, 23 d, 23 e and 23 f, two further variants of the restraint device 20 in the active position (FIGS. 23 b, 23 c, 23 e and 23 f), or in the inactive position (FIGS. 23 a and 23 d), are shown in perspective view. In this case, a slot 80 is arranged in a locking lever 84 which is arranged at the side. The slot 80 has a starting section 81 and an end section 82. A bolt 85, which is movable with the positioning element 24, engages in the slot 80 and during a movement into the active position of the restraint device 20 is moved along the slot 80 from the starting section 81 in the direction towards to the end section 82. The shape of the slot 80 is now configured in such a way that a reverse movement of the positioning element 24 or of the bolt 85 at least in the (fully) activated position or active position 22 of the restraint device 20 is prevented. The difference between the embodiment variant which is shown in FIGS. 23 a, 23 b and 23 c and the embodiment variant which is shown in FIGS. 23 d, 23 e and 23 f is based essentially in the shape of the slot 80, wherein the embodiment variant according to FIGS. 23 a, 23 b and 23 c has a more bent shape of the slot 80 while the embodiment variant according to FIGS. 23 d, 23 e and 23 f has a more curved shape of the slot 80. The locking lever 84 in this case can be pretensioned or spring-preloaded in the direction of its position which corresponds to the inactive position.

According to a further embodiment variant of the locking means 25, which is shown in FIGS. 23 g (inactive position) and 23 h (active position), instead of the slot 80 (according to the previously described embodiment variant) an operating cam 80′, also with a starting section and an end section 82′ for the bolt 85, is provided, wherein the operating cam has a recess in the end section in such a way that the bolt 85, which is moved with the positioning element 24, can also no longer be moved back into the starting section, or such a reverse movement is highly improbable, on account of the force ratios which exist in an accident situation. The locking lever 84 in this case can also be pretensioned or spring-preloaded in the direction of its position which corresponds to the inactive position.

According to a further embodiment variant of the locking means 25, which is shown in FIGS. 23 i (inactive position) and 23 j (active position), the slot 80 is formed with a starting section 81 which has a reduced clear opening, and an end section 82 which has an enlarged clear opening, in such a way that the bolt 85 has a smaller diameter in a first axial section 85′ and interacts with the starting section 81, and that the bolt 85, upon reaching the end section 82 of the slot 80 (which is to be carried out during a movement of the positioning element 24 in the direction of the active position 22), is pressed with a second axial section 85′ of the bolt, which has a larger diameter, into the end section 82 on account of an axial spring-pretensioning of the bolt due to a spring element 86.

According to a further embodiment variant of the locking means 25, which is shown in FIGS. 23 k (active position) and 23 l (inactive position), it is provided that the positioning element 24 interacts with the upper section 46, especially with holes or recesses 46′ in the upper section 46, in such a way that upon reaching the active position 22 a reverse movement of the positioning element 24 is prevented. In this case, it is especially provided that the positioning element 24 has locking lugs 24′″ for engaging in the recesses 46′ of the upper section. Furthermore, it can be additionally provided that the upper section 46 has a stop for limiting the positioning movement of the positioning element 24, for example an adapted flange.

LIST OF DESIGNATIONS

-   10 Vehicle seat -   15 Seat substructure -   16 Floor sub-assembly -   20 Restraint device -   21 Inactive position -   21′ Retracted position -   22 Active position -   22′ Extended position -   23 Actuating means -   24 Positioning element -   25 Locking means -   26 Drag lever -   26′ Telescopic lever -   26″ Rod -   26′″ Guide cylinder -   27 Latching bolt -   28 Latching recesses -   28′ Film -   29 Spring elements -   30 Seat section -   31 Seat side sections -   32 Seat surface -   33 Padding/seat cushion -   34 Seat pan/padding support/seat bucket -   41 Asymmetrical toothing -   41′ Pawl -   42 Wedge element -   43 Bell-crank lever mechanism/bell-crank lever -   44 Spindle -   45 Lower shell -   46 Upper shell -   80 Slot -   80′ Operating cam -   81 Starting section -   82 End section of the slot -   82′ End section of the operating cam -   84 Locking lever -   85 Bolt -   85′ First axial section of the bolt (reduced diameter) -   85″ Second axial section of the bolt (enlarged diameter) 

1. A vehicle seat (10) with a seat section (30) and with a restraint device (20) for preventing submarining of a passenger on the vehicle seat (10) in the case of an accident-induced deceleration, wherein the restraint device (20) can be set in a retracted inactive position (21), and wherein the restraint device (20) can be set in an extended active position (22), wherein the seat section (30) on both sides has seat side sections (31) in the longitudinal direction of the vehicle, wherein the seat section (30) has a padding (33) which defines a seat surface (32), and a padding support (34) which is provided beneath the padding (33), characterized wherein the restraint device (20), with a locking means device (25) for locking the restraint device (20) in the active position (22), is arranged between the padding support (34) and the padding (33) and also at a distance from the seat side sections (31).
 2. The vehicle seat (10) as claimed in claim 1, wherein the restraint device (20) has an actuator device (23), arranged between the padding support (34) and the padding (33), wherein an operation of the actuator device (23) is provided before the existence of an accident-induced deceleration.
 3. The vehicle seat (10) as claimed in claim 2 wherein the restraint device (20) has a positioning element (24) which is movable by the actuator device (23), wherein the positioning element (24) can be adjusted by actuator device (23) from a retracted position (21′) which corresponds to the inactive position (21) of the restraint device (20) into an extended position (22′) which corresponds to the active position (22) of the restraint device (20).
 4. The vehicle seat (10) as claimed in claim 3 wherein a rotation around an essentially horizontally extending axis is provided between the retracted position (21′) and the extended position (22′) of the positioning element (24), wherein the positioning element (24) is preferably provided as a substantially planar positioning element (24).
 5. The vehicle seat (10) as claimed in claim 4, characterized in that the rotation around the essentially horizontally extending axis is provided as a rotation in the direction of travel of the vehicle seat.
 6. The vehicle seat (10) as claimed in 3 wherein that a rotation of at least one part of the positioning element (24) around an essentially vertically extending axis is provided between the retracted position (21′) and the extended position (22′) of the positioning element (24), and wherein the positioning element (24) is preferably provided as a telescopically extendable positioning element (24).
 7. The vehicle seat (10) as claimed in claim 3 wherein that either the locking device (25) has a drag lever (26) provided in a movable manner by movement of the positioning element (24) for bringing about the locking.
 8. The vehicle seat (10) as claimed in claim 6, wherein the drag lever (26) includes a latching bolt (27) and a latching recess (28), and further includes at least one spring element (29) to provide a blocking action by displacing the drag lever (26) in the direction of the position which corresponds to the extended position (22′) of the positioning element (24) to the position which corresponds to the retracted position (21′) of the positioning element (24).
 9. The vehicle seat (10) as claimed in claim 3 wherein a latching of the rotational setting of the positioning element (24) between the extended position (22′) and the retracted position (21′) is provided by at least one of an asymmetrical toothing (41) a wedge element (42), and a reduced pitch of a pin slot guide or of a pin guide track.
 10. The vehicle seat (10) as claimed in claim 3 wherein a latching of the rotational setting of the positioning element (24) between the extended position (22′) and the retracted position (21′) is provided by a bell-crank lever (43) and a spindle (44).
 11. A restraint device (20) for a vehicle seat (10) as claimed in claim
 1. 12. A method for producing a vehicle seat (10) as claimed in claim 1 comprising the steps of producing a supporting structure of the vehicle seat (10), and connecting the restraint device (20) to the padding support (34), comprising at least one of the following by pushing on, and/or by sliding on and/or by clipping and/or by adhesive fastening and/or by screwing and/or by riveting. 